The Fluke a3000 FC Wireless AC Current Clamp Kit is part of the Fluke Connect™ team of wireless test tools

Connect the a3000 FC Wireless AC Current Clamp Module to your test point, and view the results up to 20 meters away on the 3000 FC Wireless Digital Multimeter.

You’ll save time, with less run-around collecting multiple measurements. Use multiple modules for measurements on three-phase systems, as a stand-alone measurement tool or combine with other Fluke Connect™ modules as a system for multiple measurements.

From short distances, you can even view readings from modules through closed electrical panels. Plus no more writing down data as the FC Wireless AC Current Clamp Module captures up to 65,000 sets of time stamped min/max/avg readings, using the optional PC adapter. Fluke Connect wireless test tools also offer increased safety by letting you view readings in a separate location from the test point.

Now you can take readings on moving machinery, with only the measurement module in harm’s way.

The Fluke a3000 FC Wireless AC Current Clamp Kit provides measurement of many common electrical parameters

The Fluke 3000 FC Series Wireless Multimeter with the Fluke Connect™ app has all the essentials for convenient test and measurement troubleshooting:

The Fluke a3000 FC Wireless AC Current Clamp Module has all the essentials for convenient test and measurement troubleshooting:

True-RMS AC clamp meter

Measure up to 400 A AC

Use as a standalone meter or as part of the system

Logging function for recording and saving up to 65,000 readings

Inrush function

Fluke 3000 FC Series Wireless Multimeter

* For all specifications: accuracy is specified for one year after calibration, at operating temperatures of 18°C to 28°C, with relative humidity at 0% to 90%. Accuracy specifications take the form of ±([% of Reading] + [Number of least significant digits]).

1. All AC voltage ranges are specified from 1% of range to 100% of range. 2. Crest factor of ≤ 3 at full scale up to 500 V, decreasing linearly to crest factor < 1.5 at 1000 V. 3. For non-sinusoidial waveforms, add ±(2% of reading + 2% full scale) typical, for crest factor up to 3. 4. Do not exceed 107 V-Hz.